Physicists claim new quantum-teleportation record

Physicists in China claim to have teleported the quantum states of photons nearly 100 km in free space, breaking the previous record by a factor of 100. The development could pave the way for satellite-based quantum communication, or fundamental tests of quantum mechanics over long distances.

Quantum teleportation is a way of transferring a quantum state from one place to another without actually sending a particle in that state through space. In the normal arrangement, two people, Alice and Bob, each take one half of a pair of entangled particles and then go their separate ways. Whenever Alice wants to send a quantum state to Bob, she allows a third particle in that state to interact with her half of the entangled pair of particles.

Alice then sends the result of a measurement on the system to Bob using a conventional (non-quantum) means of communication. Bob uses this information to modify his half of the entangled pair such that it is in a quantum state identical to the state that Alice wanted to send. This occurs despite the fact that Alice never actually sent a particle in that state. Another bizarre outcome of the process is that although the original copy of Alice's state is destroyed by her measurement, Bob can be made to reappear nearly 100 km away.

This process was first proposed in 1993 by IBM’s Charles Bennett and works because of the strange property of entanglement. This allows two or more particles, having interacted, to remain linked in a manner not possible in classical physics – no matter what the distance separating them. Since Bennett's proposal, quantum teleportation has been performed over short distances in the lab using photons and atoms, and over kilometre distances using fibre-optic cables. In 2010 physicist Jian-Wei Pan of the University of Science and Technology of China in Shanghai and colleagues went one better by teleporting photons over 16 km without any fibre optics – that is, over free space.

Inside, not outside

Pan says that demonstration had limited practical use, because the teleported photon had to be prepared "inside" the experiment. This is contrary to the operation of actual quantum networks, which process quantum bits of information, or qubits, that are unknown and come from outside. "In most of the quantum-communication schemes and in distributed quantum computation, the initial state is really unknown and from an independent qubit," says Pan.

Now, Pan's team claims to have repeated the experiment with photon qubits created outside, and extended the teleportation distance to 97 km – all the way across Qinghai Lake in western China. The experiment begins with an intermediary, "Charlie", preparing an entangled pair of photons by sending an ultraviolet laser beam through a barium crystal. Charlie sends one half of these entangled photons to a group of "Alice" researchers nearby, and the other half to a group of "Bob" researchers on the other side of the lake, via a telescope. Using an ultraviolet laser, the Alice group then creates new photons that it wants to teleport and lets them interact with the original, entangled photons by performing a so-called Bell measurement.

In the final step, the Alice group transmits the outcome of its Bell measurements to the Bob group via a conventional wireless link. Pan's team found that the Bob group could recreate the new photons from Alice's group with a fidelity of 80% – that is, the teleported photons on average retained 80% of their characteristics compared with how they were before they were teleported.

Satellite communications

Pan believes the results constitute a new record. "Compared with previous quantum teleportation with [multiple] photons, our teleportation has increased the distance by two orders of magnitude," he says. "Our result shows the feasibility of performing quantum teleportation between satellites and ground stations. Achieving quantum communication and performing fundamental tests of the laws of quantum mechanics on a global scale is definitely the next goal."

Physicist Nicolas Gisin of the University of Geneva in Switzerland, who is co-founder of a company called ID Quantique that manufactures quantum-cryptography systems, lauds the work, but believes it "cheats a bit". One potential cheat, he says, is that the same ultraviolet laser appears to be generating both the entangled photons and the photons to be teleported, which would not happen in a practical system. Another concerns when the teleportation actually occurs. "When the Bell-state measurement – which triggers the teleportation process – is performed by Alice, the photon travelling towards Bob [has] barely left," Gisin says. "At best it is a few metres away. Hence, the claimed teleportation over 97 km is a bit excessive."

Still, Gisin thinks the demonstration is "impressive". "This paper is welcome and will attract attention," he adds.

16 comments

Quantum State

Would someone be kind enough to elobrate on what "quantum state" is? also how are the measurments transfered to Bob from Alice allowing Bob to do? If anyone knows other links that further explain this topic please post.

Source of good information

Would someone be kind enough to elobrate on what "quantum state" is? also how are the measurments transfered to Bob from Alice allowing Bob to do? If anyone knows other links that further explain this topic please post.

Would someone be kind enough to elobrate on what "quantum state" is? also how are the measurments transfered to Bob from Alice allowing Bob to do? If anyone knows other links that further explain this topic please post.

Thank you

I appologize for the ignorance of my ways and this message, however, I found relevance in the topic and question. I was reading on the topic of "quantam state" , no spelling error intended, and came across this last quote, which of course made me my mind begin to boil. And then, in my own quantum state, I heard a voice which arose a question to my new found thought. What would become of a BIRDs song sung at the time of transfer. Apologies to all of you that have heard my question before, I beg my pardon for my first time of posting. There is no stupid question, except the question that isn't there.

Would someone be kind enough to elobrate on what "quantum state" is? also how are the measurments transfered to Bob from Alice allowing Bob to do? If anyone knows other links that further explain this topic please post.

Thank you

I appologize for the ignorance of my ways and this message, however, I found relevance in the topic and question. I was reading on the topic of "quantam state" , no spelling error intended, and came across this last quote, which of course made me my mind begin to boil. And then, in my own quantum state, I heard a voice which arose a question to my new found thought. What would become of a BIRDs song sung at the time of transfer. Apologies to all of you that have heard my question before, I beg my pardon for my first time of posting. There is no stupid question, except the question that isn't there.

Don't really understand your question however there's a lot I don't understand when it comes to quantum physics would someone like to explain why physicists don't prefer string theory to explain the quantum world rather than sticking with the increasing problems with big bang theory.

Would someone be kind enough to elobrate on what "quantum state" is? also how are the measurments transfered to Bob from Alice allowing Bob to do? If anyone knows other links that further explain this topic please post.

Thank you

I appologize for the ignorance of my ways and this message, however, I found relevance in the topic and question. I was reading on the topic of "quantam state" , no spelling error intended, and came across this last quote, which of course made me my mind begin to boil. And then, in my own quantum state, I heard a voice which arose a question to my new found thought. What would become of a BIRDs song sung at the time of transfer. Apologies to all of you that have heard my question before, I beg my pardon for my first time of posting. There is no stupid question, except the question that isn't there.

Has matter or fields any influence

to entangled pair?? Or just only to the third particle needed for reading the message?? I mean for quantum teleportation not for making photons entangled and the duration of this entanglement?? And also these more than 100 km means, that photons can be entangled only for the time of 100/300000 s?

Collapse of the state

reader: If a pair of electrons are in an entangled state, this state will colllapse, when subjected to, say, a magnetic field due to the interaction between the electron's magnetic moment and the magnetic field.

to entangled pair?? Or just only to the third particle needed for reading the message?? I mean for quantum teleportation not for making photons entangled and the duration of this entanglement?? And also these more than 100 km means, that photons can be entangled only for the time of 100/300000 s?

Not sure what's new here?

"..Whenever Alice wants to send a quantum state to Bob, she allows a third particle in that state to interact with her half of the entangled pair of particles.

Alice then sends the result of a measurement on the system to Bob using a conventional (non-quantum) means of communication."

I don't get the entanglement here? This is a straight forward "Asymetrical" communication system being used today over the satellite with millions of bits passing through over thousands of space miles. Basically, the receiver (Bob in this case) is dumb and does what Alice tells it (change states).

harmonic quintessence

"..Whenever Alice wants to send a quantum state to Bob, she allows a third particle in that state to interact with her half of the entangled pair of particles.

Alice then sends the result of a measurement on the system to Bob using a conventional (non-quantum) means of communication."

I don't get the entanglement here? This is a straight forward "Asymetrical" communication system being used today over the satellite with millions of bits passing through over thousands of space miles. Basically, the receiver (Bob in this case) is dumb and does what Alice tells it (change states).

Poor descriptions of quantum phenomena are common

We are craving for the wonders of universe, but articles such as this one fail us. I doubt that anyone could understand quantum teleportation or swear that it is incredible. Imagine a needle pin and a small doll. I promise I can explain teleportation in a single 6 letter long word. Voodoo.

That is where this article failed. It did not describe how the setup goes around the voodoo.

Quantum teleportation record

OK, given that they are able to send one bit in a possibly secure manner, or is it that the communication is faster? What is the value, given that the hardware to determine a quantum state of entangled photons is not so very simple? There are better ways of being secure, and there are already some very effective communications methods. WHAT DOES THIS DO FOR US? What is the value? It looks a whole lot like wasting time, although it may be a good thesis topic, possibly. To really hide communications all we need to do is hide it in a video stream so that nobody can see where the data is hidden. Masking encrypted data for secure communications is not very new, but it has been fairly effective. But of course, it has not been widely publicized.

to wketel2

OK, . WHAT DOES THIS DO FOR US? What is the value? It looks a whole lot like wasting time, although it may be a good thesis topic, possibly. To really hide communications all we need to do is hide it in a video stream so that nobody can see where the data is hidden. Masking encrypted data for secure communications is not very new, but it has been fairly effective. But of course, it has not been widely publicized.

don't agree: no waste of time at all.Basic research and development is the source of all new technology. Even that this experiment is not made up as it should be, it still gives a contribution for further development. Sometimes "sidesteps" are necessary to bring the experiments back to track.And, Steganography is well known, nothing new and not really a big contribution to security. Hiding the transfer of information is one thing; making it secure depends on the encryption algorithm only.

I don't see where there is teleportation. Bob and Alice took their two entangled components with them in their sealed envelopes and Alice opened hers and called Bob up and asked him to open his. She knew what her's was so she knew what his was before he opened it. That's not teleportation. Please, where am I wrong?